FI101084B - Air heater and method for building an air heater - Google Patents

Abstract

In the construction of a hot blast stove, walls (1,3) are made of pre-formed and baked bricks (5,6,7,8, 9,10). At the joint between two walls, cast joining elements (11,12,13,14,15,16,17) of complex shape are incorporated. The cast joining elements may be cast in situ. This avoids the need for pressing joining bricks of a variety of shapes. <IMAGE>

Description

101084

Air heater and method for building an air heater

The invention relates to a belt heater having a refractory structure with two or more walls consisting mainly of bricks, which are connected to each other by connecting elements connected to them, and to a method of constructing such an air heater.

Air heaters are well known and are used to heat air blown into a blast furnace. A generally known form of air heater comprises a circumferential wall inside which there is a combustion shaft and a control shaft, which shafts 10 are separated by a partition wall connected to the circumferential wall on both sides by means of connecting elements. In connection with this well-known air blower, the bricks and connecting elements are preformed, compressed and fired bricks. These connecting elements in the form of bricks often have a composite shape and their function is to arrange various connections, for example between the perimeter wall and the partition wall. Because the walls are built into the masonry overlap, the joint bricks also have different shapes for the different brick runs that make up the wall. For the construction of a generally known air heater, the connecting bricks are made by pressing them in advance in specially designed heavy pressing molds. The variation in the form of the different connecting bricks requires a corresponding variation in the compression molds, which

• · i 20 incurs significant costs. Figures 1A, 1B and 1C of the accompanying drawings

: · .. to illustrate that different air heaters use different: ‘· .: connecting bricks; in practice there are more than 35, and therefore the same

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various compression molds for their production. In addition, the design possibilities • · · as well as the shape of the prefabricated connecting bricks, which bricks must be adapted so that • · 25 they are very well combined with the design and construction possibilities of the masonry boundary of the well-known air heater.

The structures and masonry of air heaters are illustrated in Stahl: T: und Eisen, Part 95 (1975) No. 17, pages 802-806, and Metallurgist, Part 23, No. 1/2. (1979), pp. 97, 98.

It is an object of the invention to provide an air heater and a construction method for removing the above-mentioned masonry. In particular, it is an object of the invention to provide a method by which a large number of heavy compression molds are avoided.

2 101084

A method of constructing an air heater according to claim 1 and air heaters according to claims 7 and 8 have now been invented. Some more specific embodiments are set out in the dependent claims.

According to the method of the invention, there is provided a construction method for an air heater 5 having two refractory walls connected to each other at a joint, said method comprising constructing the two walls by introducing a connecting element made mainly of brick and at least one refractory concrete.

It is preferred that a large number of brick runs and / or layers of bricks in the walls use cast connection elements at the wall connection point. Molded fittings can be preformed before being exported to walls, in which case they can be made in relatively light and simple molds and do not require firing. Alternatively, the molded connecting element or elements are cast in situ at their locations at the wall joint. The advantage of this is that preforming in separate molds is not required and it is not necessary to use a large number of different molds. Instead of molds, it may be necessary to form simple temporary molds at the locations on the walls of the cast connection elements.

On the other hand, the invention discloses an air heater having refractory walls consisting mainly of bricks and connected to each other at a joint comprising at least one connecting element of refractory concrete. It is preferred that: * · the air heater has a large number of cast connection elements that are cast on site during the construction of the air heater.

Thanks to the invention, the method of pressing connecting bricks in heavy, *. can be dispensed with in the designed compression molds and can be replaced by a considerably cheaper method, which preferably comprises on-site casting into light molds. In addition to the elimination of compression of the joint bricks: *** in compression molds, on-site casting ensures that the joint elements always join together very well, despite the particularly complex shapes that may occur at the joints. By casting the connecting elements on site during construction 30 and thus making them redundant, it has been found possible to achieve a cost saving of more than 5% of the total cost of the refractory structure.

When cast in situ, the connecting element is typically cast in a space delimited at least in part by said adjacent wall bricks, and this space is usually delimited by at least one closing member of the parts 3 101084. This ensures a proper connection to the masonry bricks, as the masonry bricks form part of the mold, while the other edges of the mold can be realized with one or more sealing parts that can themselves be reused in the assembly of the assemblies.

In a preferred method according to the invention, before casting the connecting element, spacer means for the expansion seam are arranged between the location of the connecting element and at least one brick of at least one wall. As a result, it is possible to expand the surrounding bricks and connecting elements, which is important in the case of varying thermal loads during the operation of the air heater. The spacer-10 means are preferably a material which decomposes due to the heat generated by the operation of the heater, for example a plastic material such as styrofoam, or they are a compressible material such as felt. Depending on the properties of the spacer layer as well as the thickness, this allows the expansion that occurs during the operation to be appropriately taken into account.

Embodiments of the invention will now be described, by way of non-limiting example, with reference to the accompanying drawings, in which Figure 1A is a horizontal cross-sectional view of a commonly known air heater, the top of the heater, and Figure 1A 'is an enlarged view of Figure 1A. . from detail A; Fig. 1B is a horizontal cross-sectional view of the same heater, heated. the center of the element and Fig. 1B 'is an enlarged detail B of Fig. 1B; Figures 1C and 1C 'are likewise a horizontal cross-sectional view and an enlarged detail of the lower part of the same heater; and Figures 2A, 2A ', 2B, 2B', 2C and 2C are cross-sectional views and enlargements of the air heater disclosed in the invention, and correspond to the figures of Figures IA, IA ', IB, IB', 1C and 1C '. .

• · ·

Figures 1A, 1B and 1C show a cylindrical circumferential wall 1 of an air heater, inside which there is a partition 3 separating the inspection shaft 2 from the combustion shaft 4. The partition 3 is connected at each end of the circumferential wall to the wall joint. The generally known details of the air heater, which are not affected by the present invention, need not be discussed here. As shown in the detailed figures of Figures 1A, 1B 'and 1C', the walls 1,3 have layers 5, 6, 7, 8, 9, 10 of pre-compressed and fired bricks. In the lower part shown in Figures 1C and 1C ', the combustion shaft 4 is provided with additional 4101084 for, with pre-pressed and fired brick wall layers 8, 9, 10. An additional intermediate layer 19 may also be present.

Figures 1A ', 1B' and 1C 'show that at the joints of the wall, each joint brick, i.e. the bricks which essentially form parts of both walls, has its own special shape determined by its location, so that a large number of joints are required. The present invention can be applied to such walls or wall layers consisting essentially or substantially entirely of brick.

The corresponding views of the air heater embodying the invention in Figures 2A, 2A ', 2B, 2B', 2C and 2C show that the pre-compressed and fired connection bricks are replaced by cast connection elements 11, 12, 13, 14, 15, 16, 17, which is made of cast refractory concrete. As shown in the horizontal sections, each pair of brick layers joined together corresponds to one molded connecting element. Thus, in Fig. 2A ', the walls 1, 3 are connected together by a molded connecting element 11, 12 having a different shape. In Fig. 2B 'the walls 1, 3 are connected together by a cast connection element 15 13, 14. In Fig. 2C the walls 1, 3 are connected together by cast connection elements 15, 16, 17.

The height of all cast connecting elements 11-17 may typically be the same as the height of one run of adjacent bricks or the run of two adjacent bricks. In practice, both have been found to be suitable.

«| · I <· 4 I «·: '· .. The illustrated air heater embodying the invention is otherwise generally the same as the air heater of Figures 1A, 1A', etc.

In one of Figures 1A, 2A, etc. In the method of carrying out the invention for the construction of an air heater, the molded connecting elements were made using separate molds in the immediate vicinity of the construction site. In another method of the invention, the connecting elements were cast in situ as described above. The choice of method is influenced by the dimensions of the heater, local conditions, accessibility, flow characteristics of the material to be cast, etc.

• ·

In a method in which moldable joints are cast in situ when constructing one brick run of the walls, an intermediate material, such as felt, is placed on the boundaries of the masonry bricks and the sealing portion is placed on the boundary of the desired joint without bricked bricks. The cast concrete is then poured to the desired height.

5 101084

The connecting element, which has a very complex shape, is thus formed in situ. The height of the connecting element may extend over one or more brick runs of walls 1 and 3. The felt forms expansion seams in the structure. In the case of the air heater structure according to the invention, it is possible to focus the expansion points on the expansion of the partition wall 3 at the interfaces of the connecting elements.

The invention deviates from the previous starting point, in which bricks, which are preformed, pressed and fired and subject to strict requirements, must be used as connecting elements, and now a new method is presented which significantly simplifies the structure and consequently reduces costs.

Suitable casting materials for connecting elements are low-concrete, high-alumina castings available on the market.

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Claims (9)

101084 A method of constructing an air heater, the air heater having a surrounding refractory wall (1) having a fuel shaft (4) and a check shaft (2) inside, the shafts being separated by a refractory partition wall (3), the walls being made mainly of brick (5). , 6, 7, 8, 9, 10), which are connected to each other at the joint (A, B, C) by a connecting brick (11-17), characterized in that as a connecting brick (11-17) to be connected to said joint of the walls (1,3) a cast joint brick (11-17) made of cast refractory concrete is used. A method according to claim 1, characterized in that said cast connection brick (11-17) is formed by casting in situ at said connection point during the construction of the air heater. A method according to claim 2, characterized in that said connecting brick (11-17) is cast in a space delimited at least in part by bricks (5, 6, 7, 8, 9, 10) of adjacent walls. Method according to Claim 2 or 3, characterized in that the connecting brick (11-17) is cast in a space which is partially delimited by one or more closing elements. j. ·. Method according to one of the preceding claims, characterized in that; ·. that it further comprises spacer means for said cast joint brick and an adjacent wall ’. 20 (1,3) between at least one part. A method according to claim 5, characterized in that said intermediate means are made of plastic which decomposes due to the heat of the air heater: T: due to heat, or of felt. 7. An air heater with a surrounding refractory wall (1) with ♦ · 25 fuel shafts (4) and a check shaft (2) inside, which shafts are separated by a refractory intermediate wall • · · '· [*), which walls (1, 3) are connected to each other at the joint (A, B, C) by a joint brick (11-17), characterized in that at least one of said joint bricks (11-17) is made of cast refractory concrete. An air heater having a surrounding refractory wall (1) having 30 fuel shafts (4) and a check shaft (2) inside, the shafts being separated by a refractory partition wall (3), the walls (1,3) being connected to each other at the joint (A). , B, C) with connecting bricks (11-17), characterized in that the connecting bricks (11-17) are cast in place during the construction of the air heater. Air heater according to claim 7 or 8, characterized in that it further comprises spacer means arranged between the cast connection brick (11-17) and at least one part of the adjacent wall (1,3).